I'm trying to find the x-coordinate at which 95% of observations are below that number.

I think the qnorm function is the way to do it. I see it takes an argument for mean and another argument for standard deviation.

mean_cv <- mean(geology_data$CV, na.rm = TRUE) 

sd_cv <- sd(geology_data$CV, na.rm = TRUE) 

qnorm(95, mean_cv, sd_cv)

But when I run the code, though, I just get this error: NaNs produced[1] NaN

Super confused by this!

  • 1
    if you want to get the CI at 95% then you should get the quantiles at 2.5% and 97.5% as this interval has 95% of the values i.e qnorm(c(.025,.975), mean_cv, sd_cv) you're getting the error cause you're looking for 95 quantile ie 9500% quantile not 95% quantile – Abdessabour Mtk Oct 17 at 18:22
  • 2
    @AbdessabourMtk I would bet it's the 0.95 quantile the OP wants, since the question asks for the quantile "at which 95% of observations are below that number." – Rui Barradas Oct 17 at 18:26
  • 1
    @RuiBarradas ok then he should use qnorm(.95, mean_cv, sd_cv) – Abdessabour Mtk Oct 17 at 18:27
  • 2
    Why assume normality? The question does not lead to that assumption. quantile(x, 0.95) is more to the point(?). – Rui Barradas Oct 17 at 18:29
  • 1
    OP made that assumption. maybe he already used statistical tests and qq-plots to check for it – Abdessabour Mtk Oct 17 at 18:31

Browse other questions tagged or ask your own question.